CN115162850A - Tool cabinet and working method thereof - Google Patents

Abstract

The invention discloses a tool cabinet and a working method thereof. The cabinet group includes main cabinet and vice cabinet, main cabinet and vice cabinet include the cabinet wall and can open and shut the cabinet door that sets up, the cabinet door inductor is used for responding to the state of opening and shutting of cabinet door, cabinet door state retention device is used for keeping the state of opening and shutting of cabinet door, master controller includes the human-computer interaction unit, identification element and overtime timer, overtime timer is used for triggering and closes the lock procedure, lock control device includes the lock, lock controller, multiplexer utensil detection device feeds back detection information to master controller, trigger overtime timer work. If the user does not open all the cabinet doors, the overtime timer feeds back information to the master controller to control the closing of all the locks; if the cabinet door cabinet is opened and then closed, the overtime timer feeds back information to the master controller to control all locks which are not opened to close the cabinet door cabinet.

Description

Tool cabinet and working method thereof

Technical Field

The invention relates to the technical field of cabinets, in particular to a tool cabinet and a working method thereof.

Background

Present intelligent multiplexer utensil cabinet when using, but need keep the open mode of each cabinet door to supply the user to deal with various condition at any time, take each multiplexer utensil at random, but only can open some cabinet doors, then close these cabinet doors of opening, other unopened cabinet doors need artificially to close the cabinet door and just can lock.

Disclosure of Invention

The invention aims to solve at least one technical problem in the prior art and provides a tool cabinet.

The embodiment of the invention also provides a working method of the tool cabinet.

According to an embodiment of the first aspect of the present invention, there is provided a tool cabinet, including: the device comprises a cabinet group, a cabinet door inductor, a cabinet door state maintaining device, a master controller, a lock control device and a tool detection device. The cabinet group is including main cabinet and vice cabinet, main cabinet with vice cabinet includes the cabinet wall and can open and shut the cabinet door that sets up, cabinet door inductor is used for the response the state of opening and shutting of cabinet door, cabinet door state retention device is used for keeping the state of opening and shutting of cabinet door, total controller includes human-computer interaction unit, identification unit and overtime timer, overtime timer be used for with the overtime information feedback of cabinet door feeds back to total controller, and then triggers and closes the lock procedure, lock control device includes lock, lock control ware control the switching of lock, tool detection device will detect the information feedback and feed back to total controller triggers overtime timer work.

Has the advantages that: the tool cabinet comprises a cabinet group, a cabinet door sensor, a cabinet door state maintaining device, a master controller, a lock control device and a tool detection device. The cabinet group includes main cabinet and vice cabinet, main cabinet and vice cabinet include the cabinet wall and can open and shut the cabinet door that sets up, the cabinet door inductor is used for responding to the state of opening and shutting of cabinet door, cabinet door state retention device is used for keeping the state of opening and shutting of cabinet door, master controller includes the human-computer interaction unit, identification element and overtime timer, overtime timer is used for feeding back the overtime information of cabinet door to master controller, and then trigger and close the lock procedure, lock control device includes the lock, lock controller, the switching of lock controller control lock, tool and appliance detection device will detect information and feed back to master controller, trigger overtime timer work. After the user logs in, if all the cabinet doors are not opened, the overtime timer feeds back information to the master controller to control all the locks to be closed; if the cabinet door cabinet is opened and then closed, the overtime timer feeds back information to the master controller to control all locks which are not opened to close the cabinet door cabinet.

According to the tool cabinet provided by the embodiment of the invention, the master controller adopts an industrial control all-in-one machine, the industrial control all-in-one machine is arranged at the middle upper part of the cabinet door of the main cabinet, the industrial control all-in-one machine is connected with the cabinet group through a POE (power over Ethernet) switch, and the identity recognition unit can adopt at least one of fingerprint recognition, face recognition or card swiping recognition.

According to the tool cabinet provided by the embodiment of the invention, the industrial personal computer further comprises a camera, a human body sensor, a touch screen and an ultrahigh frequency RFID reader-writer, and the ultrahigh frequency RFID reader-writer arranged in the industrial personal computer is used for scanning the label of the tool individually so as to display the specific information of the tool.

According to the tool cabinet provided by the embodiment of the invention, the tool detection device comprises an ultrahigh frequency RFID reader-writer and an ultrahigh frequency RFID antenna, the ultrahigh frequency RFID reader-writers are arranged in the main cabinet and the auxiliary cabinet and are used for scanning the in-store information of the tools and tools in the cabinet wall and judging borrowing and returning operations, the tool detection device is connected with the switch through the Ethernet and further connected to the industrial control all-in-one machine, the tool detection device adopts the ultrahigh frequency RFID antenna, and the scanning data of the ultrahigh frequency RFID antenna is processed by the ultrahigh frequency RFID reader-writer and then transmitted to the main controller.

According to the tool cabinet provided by the embodiment of the invention, the cabinet door state maintaining device adopts magnetic force adsorption, and the cabinet door state maintaining device is arranged on the opening and closing side of the cabinet door.

According to the tool cabinet disclosed by the embodiment of the invention, the cabinet door inductor adopts a magnetic inductor, the magnetic inductor is arranged on the cabinet wall, magnetic sheets are arranged at the positions of the cabinet door corresponding to the magnetic inductor, and the magnetic inductor can feed back the opening and closing state of the cabinet door to the master controller.

According to the tool cabinet provided by the embodiment of the invention, the lock comprises a key control assembly, a shell, a circuit assembly, an electric assembly and a lock tongue assembly, the shell is provided with an installation cavity, the key control assembly comprises a first pusher dog and a lock cylinder, the first pusher dog is sleeved on the lock cylinder, the lock cylinder is provided with an inlet for inserting a key, the lock cylinder is installed at one end of the installation cavity, the circuit assembly comprises a control circuit board and a sensor, the control circuit board is positioned in the installation cavity, the electric assembly comprises a motor and a gear assembly, the motor is connected with the control circuit board, the motor drives the gear assembly to transmit, the lock tongue assembly comprises a second pusher dog and a lock tongue, the second pusher dog is fixed at an output end inside the gear assembly, the lock tongue is provided with a trigger part matched with the second pusher dog, the second pusher dog can be pushed by the first pusher dog or a trigger part on the gear assembly, the trigger part is further used for driving the telescopic movement of the lock tongue, wherein the limit position of the telescopic movement of the lock tongue can be sensed by the sensor, and further fed back to the control circuit board for controlling the rotation of the motor.

According to the tool cabinet provided by the embodiment of the invention, the inner frame of the cabinet door is provided with the line mounting hole, the inner side of the cabinet wall is provided with the stand column and the antenna mounting strip, the antenna mounting strip and the stand column are provided with the line mounting hole and the wiring hole, and the light bar arranged in the cabinet wall can be shielded by adopting the cover plate.

According to the tool cabinet provided by the embodiment of the invention, the outer layer of the cabinet wall can be integrally welded by adopting a metal plate, the cabinet door can be adhered with a sealing strip so as to be tightly attached to the protruding part of the frame of the cabinet wall, the inner layer of the cabinet wall can be made of a polypropylene plate, and the internal partition plate of the cabinet wall can be made of a wood plate.

According to another aspect of the present invention, there is provided a working method, using the tool cabinet described in any one of the above:

s2: the identity recognition unit recognizes the identity, and opens the login authority when the identity is matched;

s4: the master controller sends an unlocking instruction to each lock control device and starts an overtime timer;

s6: after the lock control device receives the unlocking instruction, the lock is controlled to be opened;

s8: the cabinet door state maintaining device maintains the closed state of the cabinet door;

s10: after the cabinet door is opened, the cabinet door sensor detects that the cabinet door is opened, and feeds back the opening information of the cabinet door to the master controller;

s12: after the cabinet door is closed, the cabinet door sensor detects that the cabinet door is closed, and feeds back closing information of the cabinet door to the master controller;

s14: the master controller sends a first lock closing instruction to the lock control device which opens the cabinet door cabinet, and triggers the overtime timer;

s16: after the lock control device for opening the cabinet door cabinet receives the first lock closing instruction, the lock for opening the cabinet door cabinet is controlled to be closed;

s18: when the overtime timer is overtime, the master controller sends a second lock closing instruction to each lock control device which does not open the cabinet door cabinet;

s20: after the lock control device of each unopened cabinet door cabinet receives the second lock closing instruction, the lock control device controls the lock of each unopened cabinet door cabinet to be closed;

s22: and in S4, matching with the started overtime timer, starting an overtime locking program to control the locking of each lock without opening each cabinet door within set time.

Drawings

The invention is further described with reference to the following figures and examples;

FIG. 1 is an exploded view of a main cabinet of the tool cabinet of the present invention;

FIG. 2 is an exploded view of the lock of the tool cabinet of the present invention;

FIG. 3 is a schematic view of the entire tool cabinet set of the present invention.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to, for example, upper, lower, front, rear, left, right, top, bottom, inner, outer, etc., is indicated based on the orientation or positional relationship shown in the drawings only for the convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise specifically limited, terms such as set, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention by combining the specific contents of the technical solutions.

When the existing intelligent tool cabinet is used, a user can not clearly know the tool to be found in consideration of a plurality of emergency situations after swiping a card, and the user can not determine the cabinet door to be opened in advance, so that the openable state of each cabinet door needs to be maintained, the user can deal with various situations at any time, and each tool can be taken randomly. In actual use, because only some cabinet doors are opened and then the opened cabinet doors are closed, other unopened cabinet doors need to be manually closed to be locked.

Different from similar express delivery cabinet, the group of cabinet that can bounce open automatically, this application provides a multiplexer utensil cabinet, and the cabinet door can keep the closed condition that can immediately directly open, when closed condition lasts to the uniform time, can lock automatically simultaneously.

Referring to fig. 1 to 3, a tool cabinet includes a cabinet set, a cabinet door sensor 210, a cabinet door state maintaining device 310, a lock control device, a tool detection device, and a general controller 410.

It will be readily appreciated that the cabinet group comprises a main cabinet 110 and a secondary cabinet 120, the main and secondary cabinets comprising cabinet walls 130 and door 140 which may be openably and closably arranged.

In a particular embodiment, the cabinet walls 130 include left, right, and rear side walls, with the cabinet doors 140 and rear side walls each extending between the left and right side walls.

Further, the cabinet door 140 is connected with the cabinet wall through a heavy hinge, the opening and closing are smooth, and the heavy hinge not only plays a role in connection, but also bears the weight.

Furthermore, the cabinet door 140 is internally provided with a reinforcing frame, so that the tool cabinet is reliable in structure and not prone to shaking and deforming.

In a specific embodiment, the cabinet door sensor 210 is a magnetic sensor, the magnetic sensor is installed at the middle of one end of the right side wall close to the cabinet door, a magnetic sheet is installed at a position corresponding to the cabinet door 140, and the magnetic sensor can sense the opening and closing state of the cabinet door 140. And outputs a corresponding gate status signal to the overall controller 410.

As will be readily appreciated, a magnetic inductor is a device that converts a magnetic signal into an electrical signal. The conversion relation between the magnetic quantity and other physical quantities is utilized, and other nonelectrical physical quantity signals can be converted into electric signals by taking a magnetic field as a medium.

In a specific embodiment, the cabinet door state maintaining device 310 is installed at the upper and lower corners of the opposite side of the fixed side of the cabinet door 140 in a magnetic adsorption manner, when the cabinet door 140 is closed, the cabinet door 140 is adsorbed by magnetic force, a cabinet door handle is installed at the middle position of the cabinet door 140, the door is opened and closed by controlling the cabinet door handle, the stress on the cabinet door is uniform and is not easy to deform, the height of the cabinet door handle and the lock from the ground is about 1.05M, and the requirement of comfort level for the adult to push and pull the hand is met.

In a specific embodiment, the master controller 410 is an industrial control all-in-one machine, and the industrial control all-in-one machine is connected with the cabinet set through a POE switch. The industrial control all-in-one machine comprises a human-computer interaction unit, an identity recognition unit and an overtime timer.

Easily understood, the man-machine interaction unit has interaction forms such as touch interaction and voice interaction.

It is easy to understand that the identity recognition unit adopts the forms of card swiping recognition, face recognition or fingerprint recognition and the like.

In a specific embodiment, the industrial control all-in-one machine integrates multiple functions and is installed at the middle upper part of a cabinet door of a main cabinet, the industrial control all-in-one machine further comprises a camera, a human body sensor, a touch screen and an ultrahigh frequency RFID reader-writer, the ultrahigh frequency RFID reader-writer arranged in the industrial control all-in-one machine is used for scanning tags of tools and instruments individually so as to display specific information of the tools and instruments, including names, ids, storage positions and the like, the height of the camera and the human body sensor from the ground is 1.6M, and the height of the camera and the human body sensor can be over against the face of most adults; the card swiping device or the fingerprint identification device is positioned at the lower part of the industrial control all-in-one machine, and the settings accord with human engineering and are convenient to operate.

As will be readily appreciated, the timeout timer is used to feed back the timeout information of the cabinet door 140 to the general controller 410, which in turn triggers the locking procedure.

In a specific embodiment, the lock control device includes a lock, a lock controller, and a tool detection device, and the tool detection device can employ an ultra high frequency RFID antenna, and the ultra high frequency RFID antenna feeds detection information back to the master controller 410 to trigger the timeout timer to operate.

The tool detection device is easy to understand, the ultrahigh frequency RFID reader-writer and the ultrahigh frequency RFID reader-writer are combined together, the ultrahigh frequency RFID reader-writers arranged in the main cabinet and the auxiliary cabinet can scan the passive ultrahigh frequency RFID tags adhered to the tools and read the unique ID of the tags, and thus the tools and tools in the tool cabinet can be detected in a warehouse and judged and returned.

Specifically, the tool detection device is connected with the switch through the Ethernet and further connected to the industrial control screen all-in-one machine. And the scanning data of the ultrahigh frequency RFID antenna is processed by the ultrahigh frequency RFID reader and then transmitted to the industrial control screen all-in-one machine.

Easily understand easily, the user is after the industrial control all-in-one is unblanked by the card, is swiped fingerprint, face identification or other modes on the industrial control all-in-one, and cabinet door 140 still is lived by magnetic force absorption this moment, is in the closed condition, and the operation timing can appear in industrial control all-in-one operation interface, does not open the cabinet door at the settlement time, and the industrial control all-in-one chance starts the overtime procedure of locking, controls the lock and closes.

In a specific embodiment, the lock comprises a key control assembly, a housing, a circuit assembly, an electric assembly and a bolt assembly, wherein the housing is provided with a mounting cavity, the key control assembly comprises a first pusher dog 610 and a lock cylinder 620, the first pusher dog 610 is sleeved on the lock cylinder 620, the lock cylinder 620 is provided with an inlet for inserting a key, the lock cylinder 620 is mounted at one end of the mounting cavity, the circuit assembly comprises a control circuit board 710 and a sensor 720, the control circuit board 710 is located in the mounting cavity, the electric assembly comprises a motor 810 and a gear assembly 820, the motor 810 is connected with the control circuit board 710, the motor 810 drives the gear assembly 820 to transmit, the bolt assembly comprises a second pusher dog 910 and a bolt 920, the second pusher dog 910 is fixed at an output end inside the gear assembly 820, the bolt 920 is provided with a trigger part matched with the second pusher dog 910, the second pusher dog 910 can be pushed by the first pusher dog 610 or a trigger part on the gear assembly 820, and then drives the bolt 920 to perform telescopic motion through the trigger part, wherein the limit position of the telescopic motion of the bolt 920 can be sensed by the sensor 720, and then the control circuit board 710 controls the motor 810 to rotate.

The electric assembly and the circuit assembly which are composed of the motor and the control circuit board in the lock and the structure of the mechanical switch lock are easy to understand, the electric switch lock is not only arranged on the industrial control all-in-one machine, but also the mechanical switch lock can be used by a key when power failure or system failure occurs.

In the embodiment of the invention, in order to realize the overtime automatic locking function, in the design of the lock, the motor is adopted to drive the lock tongue, after the unlocking and locking actions, the lock tongue can realize state maintenance without continuous power supply, and the common electromagnetic lock in the market needs to be continuously powered all the time to achieve the purpose of maintaining the state of the lock tongue, so that the power consumption of equipment can be increased, the environment is not protected, in addition, the continuous power supply can cause heating, and a fire disaster can be caused seriously.

The industrial control integrated machine is easy to understand, a user can take and place tools after unlocking and opening a cabinet door according to a program, detection tags are pasted on the tools, the user closes a cabinet door after taking and placing the tools, a magnetic inductor on the wall of the cabinet senses that the cabinet door is closed, a system can enter a scanning recording program, ultrahigh frequency RFID antennas arranged on the upper, lower, left and right sides in the cabinet of the tools can scan and read the detection tags of the tools in the cabinet, scanning data are processed by a high frequency RFID reader-writer and transmitted to the industrial control integrated machine, a display interface of the industrial control integrated machine can display and record the tools borrowed and returned by the user, an overtime timer is triggered at the same time, and after the key pressing of the user is confirmed or the confirmation key is not pressed for overtime, the industrial control integrated machine can control the lock to be locked through a lock control device.

In a specific embodiment, the inner frame of the cabinet door 140 is provided with a circuit mounting hole, so that the inside and outside wiring is convenient, and the light bar arranged in the cabinet wall 130 can be shielded by the cover plate 141.

Furthermore, the cabinet wall comprises an inner layer and an outer layer, the outer layer can be integrally welded by adopting metal plates, and the cabinet door is pasted with the sealing strips, so that the cabinet wall can be tightly attached to the protruding part of the frame of the cabinet wall, the whole sealing performance of the tool cabinet is good, detection signals can be shielded, and the detection in the cabinet is not interfered by the environment outside the cabinet. The inner layer of the cabinet wall can be made of polypropylene plates, and the internal partition plate of the cabinet wall can be made of wood plates, so that the detection of the system cannot be influenced.

Easily understand the ground, there is the intermediate layer on the four sides about the cabinet wall, and intermediate layer internal stay 143 and stand 142 have mounting hole and walk the line hole, and the hyperfrequency RFID antenna of easy to assemble and circuit can not show the influence outward appearance to most circuit of multiplexer utensil cabinet.

In a specific embodiment, a glass window for protecting the inside is arranged in the inner frame of the cabinet door, a shielding film is attached to the surface of the glass window, the ultrahigh frequency RFID antenna in the tool cabinet can be prevented from being influenced by the outside, the condition of displaying tools in the tool cabinet can be observed through the glass window, and a user can conveniently take and place the tools.

In a specific embodiment, a first indicator light is arranged on the right side wall of the cabinet wall, the first indicator light is used for indicating the position of the tool, for example, an ultrahigh frequency RFID reader arranged in the industrial control all-in-one machine scans a tool, the screen of the industrial control all-in-one machine can display the information of the tool, and meanwhile, the first indicator light at the corresponding position of the tool can be lightened, so that a user is prompted to place the tool at the corresponding position.

In a specific embodiment, the lock is provided with a second indicator light, the second indicator light is on in the unlocking state, and the second indicator light is off in the locking state.

In a specific embodiment, the tool cabinet inner wall adopts more nylon rivets and less screw fixation to make simple to operate swift, the structure is firm simultaneously, and tool cabinet inner wall all can set up to the PP board material.

In a specific embodiment, the metal layer outside the cabinet wall is integrally welded by adopting a metal plate, so that the structure is firm and reliable.

In a specific embodiment, the circuits inside the tool cabinet are connected out through two interfaces on the top of the cabinet, are connected with a power module arranged on the top, are powered by the power module, and output data through a switch.

It is easily understood that the main cabinet reserves an interface for connecting external systems.

In a specific embodiment, the power module consists of a shell, a power supply, a switch and a cooling fan, and the power module can be independently installed by adopting an assembly module and then installed on the top of the main cabinet with a reserved installation hole.

In a specific embodiment, the upper frame and the lower frame of the cabinet wall are formed by welding angle iron members and four-side sheet metal bent plates.

It is easy to understand that the angle iron member has high strength and is a stressed part, and the stressed part also comprises an upper frame angle iron member mounting hanging ring, an on-line movable joint screw, a lower frame angle iron member mounting caster, a foot cup, an on-line movable joint screw and the like.

Easily understand ground, four sides panel beating bending plate is used for installing and supports the inside roof of multiplexer utensil cabinet and the inside bottom plate of multiplexer utensil cabinet, and four sides panel beating bending plate is provided with the mounting hole and walks the line hole.

In a specific embodiment, the bottom plate of the tool cabinet is provided with heavy casters and heavy feet cups, when the tool cabinet needs to be moved, the screws are rotated to pack the feet cups, the four universal casters at the bottom can make the tool cabinet move smoothly, the feet cups can be put down when the movement is completed, and the four heavy feet cups are used for supporting the tool cabinet, so that the tool cabinet stands stably.

In a specific embodiment, the main cabinet and the plurality of auxiliary cabinets can be combined in an online mode, the adjacent cabinets can be connected through corresponding movable joint screws, the stable connection can be achieved, and a reserved space is reserved on the left side of the cabinet door of the tool cabinet, so that the structures of the adjacent cabinets are not interfered when the cabinet doors are opened and closed.

The embodiment provides a working method, which adopts any one of the above tool cabinet:

s2: the identity recognition unit recognizes the identity, and opens the login authority when the identity is matched;

s4: the master controller sends an unlocking instruction to each locking control device and starts an overtime timer;

s6: after the lock control device receives an unlocking instruction, the lock is controlled to be opened;

s8: the cabinet door state maintaining device maintains the closed state of the cabinet door;

s10: after the cabinet door is opened, the cabinet door sensor detects that the cabinet door is opened, and feeds back the opening information of the cabinet door to the master controller;

s12: after the cabinet door is closed, the cabinet door sensor detects that the cabinet door is closed, and feeds back closing information of the cabinet door to the master controller;

s14: the master controller sends a first locking closing instruction to the lock control device which opens the cabinet door cabinet, and triggers an overtime timer;

s16: after the lock control device for opening the cabinet door cabinet receives the first lock closing instruction, controlling the lock for opening the cabinet door cabinet to close;

s18: when the overtime timer is overtime, the master controller sends a second lock closing instruction to each lock control device which does not open the cabinet door cabinet;

s20: after receiving the second locking command, the lock control devices of the unopened cabinet doors and cabinets control the locks of the unopened cabinet doors and cabinets to be closed;

s22: and in S4, matching with the started overtime timer, not opening each cabinet door within set time, starting an overtime locking program, and controlling each lock to be closed.

According to the embodiment provided by the invention, after the door is unlocked, the door is not bounced, the door is kept in the suction state, if the door is not opened, after the set overtime time passes, the lock control device can control automatic locking, and manual intervention is not needed.

The electromagnetic lock in the market is only suitable for the scene that the back cabinet door auto-eject unblanks, and this kind of scene is because unblank time is shorter, and it is not serious to generate heat, can't realize our application scene.

The lock control device provided by the embodiment of the invention is controlled by the motor, the state is kept, the overtime automatic locking function is realized, the user experience is finally improved, and manual intervention for opening and closing of the cabinet door is not needed.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (10)

1. A tool cabinet, comprising:

the cabinet group comprises a main cabinet and an auxiliary cabinet, wherein the main cabinet and the auxiliary cabinet comprise cabinet walls and cabinet doors capable of being opened and closed;

the cabinet door inductor is used for inducing the opening and closing state of the cabinet door;

the cabinet door state maintaining device is used for maintaining the opening and closing state of the cabinet door;

the master controller comprises a man-machine interaction unit, an identity recognition unit and an overtime timer, wherein the overtime timer is used for feeding back overtime information of the cabinet door to the master controller so as to trigger a locking program;

the lock control device comprises a lock and a lock controller, wherein the lock controller controls the lock to be opened and closed;

and the tool detection device feeds detection information back to the master controller and triggers the overtime timer to work.

2. The tool cabinet of claim 1, wherein: the master controller adopts industrial control all-in-one machine, the industrial control all-in-one machine is installed the main cabinet the well upper portion of cabinet door, the industrial control all-in-one machine pass through the POE switch with cabinet group link, the identity identification unit can adopt fingerprint identification or face identification or at least one among the recognition of punching the card.

3. The tool cabinet of claim 2, wherein: the industrial personal computer further comprises a camera, a human body sensor, a touch screen and an ultrahigh frequency RFID reader-writer, wherein the ultrahigh frequency RFID reader-writer arranged in the industrial personal computer is used for scanning the tags of the tools individually so as to display the specific information of the tools.

4. The tool cabinet of claim 2, wherein: the tool and instrument detection device comprises an ultrahigh frequency RFID reader-writer and an ultrahigh frequency RFID antenna, the ultrahigh frequency RFID reader-writers are arranged in the main cabinet and the auxiliary cabinet and are used for scanning in-store information of tools and instruments in the cabinet wall and judging borrowing and returning operations, the tool and instrument detection device is connected with the switch through the Ethernet and further connected to the industrial control all-in-one machine, the tool and instrument detection device adopts the ultrahigh frequency RFID antenna, and scanning data of the ultrahigh frequency RFID antenna is processed by the ultrahigh frequency RFID reader-writer and then transmitted to the main controller.

5. The tool cabinet of claim 1, wherein: the cabinet door state maintaining device adopts magnetic force adsorption, and the cabinet door state maintaining device is arranged on the opening and closing side of the cabinet door.

6. The tool cabinet of claim 1, wherein: the cabinet door inductor adopts the magnetic inductor, the magnetic inductor sets up on the cabinet wall, the cabinet door with the magnetic sheet is installed to the corresponding position of magnetic inductor, the magnetic inductor can with the state feedback of opening and shutting of cabinet door is to master controller.

7. The tool cabinet of claim 1, wherein: the lock comprises a key control assembly, a shell, a circuit assembly, an electric assembly and a spring bolt assembly, wherein the shell is formed with an installation cavity, the key control assembly comprises a first pusher dog and a lock cylinder, the first pusher dog is sleeved on the lock cylinder, the lock cylinder is provided with an inlet for inserting a key, the lock cylinder is installed at one end of the installation cavity, the circuit assembly comprises a control circuit board and a sensor, the control circuit board is located in the installation cavity, the electric assembly comprises a motor and a gear assembly, the motor is connected with the control circuit board, the motor drives the gear assembly to transmit, the spring bolt assembly comprises a second pusher dog and a spring bolt, the second pusher dog is fixed at an output end inside the gear assembly, the spring bolt is provided with a trigger part matched with the second pusher dog, the second pusher dog can be stirred by the first pusher dog or a trigger piece on the gear assembly is stirred by the first pusher dog, the spring bolt is driven to perform telescopic motion, and the limit position of the spring bolt telescopic motion can be sensed by the sensor and then fed back to the control circuit board to control the motor to rotate.

8. The tool cabinet of claim 1, wherein: the interior frame of cabinet door is provided with the circuit mounting hole, cabinet wall inboard is provided with stand and antenna mounting strip, the antenna mounting strip with the stand is provided with the circuit mounting hole and walks the line hole, the lamp strip that sets up in the cabinet wall can adopt the apron to shelter from.

9. The tool cabinet of claim 1, wherein: the outer layer of cabinet wall can adopt the metal sheet to carry out the bulk weld, can paste the sealing strip on the cabinet door, thereby with the frame bulge position of cabinet wall closely laminates, the inlayer of cabinet wall can adopt polypropylene panel, the internal division board of cabinet wall can adopt the plank.

10. A method of operation, characterized by: use of a tool cabinet according to any of claims 1 to 9:

s2: the identity recognition unit recognizes the identity, and opens the login authority when the identity is matched;

s4: the master controller sends an unlocking instruction to each lock control device and starts an overtime timer;

s6: after the lock control device receives the unlocking instruction, the lock is controlled to be opened;

s8: the cabinet door state maintaining device maintains the closed state of the cabinet door;

s10: after the cabinet door is opened, the cabinet door sensor detects that the cabinet door is opened, and feeds back opening information of the cabinet door to the master controller;

s12: after the cabinet door is closed, the cabinet door sensor detects that the cabinet door is closed, and feeds back closing information of the cabinet door to the master controller;

s14: the master controller sends a first lock closing instruction to the lock control device which opens the cabinet door cabinet, and triggers the overtime timer;

s16: after the lock control device for opening the cabinet door cabinet receives the first lock closing instruction, the lock for opening the cabinet door cabinet is controlled to be closed;

s18: when the overtime timer is overtime, the master controller sends a second lock closing instruction to each lock control device which does not open the cabinet door cabinet;

s20: after the lock control device of each unopened cabinet door cabinet receives the second lock closing instruction, the lock control device controls the lock of each unopened cabinet door cabinet to be closed;

s22: and in S4, matching with the started overtime timer, starting an overtime locking program to control the locking of each lock without opening each cabinet door within set time.

Images